struct cod_manager *cod_man;
struct chnl_mgr *hchnl_mgr;
struct msg_mgr *hmsg_mgr;
+ struct iommu *mmu;
u32 ul_shm_base;
u32 ul_shm_base_offset;
u32 ul_shm_limit;
struct bridge_ioctl_extproc ae_proc[BRDIOCTL_NUMOFMMUTLB];
struct cfg_hostres *host_res;
struct bridge_dev_context *pbridge_context;
- u32 map_attrs;
u32 shm0_end;
u32 ul_dyn_ext_base;
u32 ul_seg1_size = 0;
status = -EFAULT;
goto func_end;
}
+ mmu = pbridge_context->dsp_mmu;
+
+ if (mmu)
+ iommu_put(mmu);
+ mmu = iommu_get("iva2");
+
+ if (IS_ERR_OR_NULL(mmu)) {
+ dev_err(bridge, "iommu_get failed!\n");
+ pbridge_context->dsp_mmu = NULL;
+ status = -EFAULT;
+ goto func_end;
+ }
+ pbridge_context->dsp_mmu = mmu;
+
status = dev_get_cod_mgr(hio_mgr->hdev_obj, &cod_man);
if (!cod_man) {
status = -EFAULT;
gpp_va_curr = ul_gpp_va;
num_bytes = ul_seg1_size;
- /*
- * Try to fit into TLB entries. If not possible, push them to page
- * tables. It is quite possible that if sections are not on
- * bigger page boundary, we may end up making several small pages.
- * So, push them onto page tables, if that is the case.
- */
- map_attrs = 0x00000000;
- map_attrs = DSP_MAPLITTLEENDIAN;
- map_attrs |= DSP_MAPPHYSICALADDR;
- map_attrs |= DSP_MAPELEMSIZE32;
- map_attrs |= DSP_MAPDONOTLOCK;
-
- while (num_bytes) {
- /*
- * To find the max. page size with which both PA & VA are
- * aligned.
- */
- all_bits = pa_curr | va_curr;
- dev_dbg(bridge, "all_bits %x, pa_curr %x, va_curr %x, "
- "num_bytes %x\n", all_bits, pa_curr, va_curr,
- num_bytes);
- for (i = 0; i < 4; i++) {
- if ((num_bytes >= page_size[i]) && ((all_bits &
- (page_size[i] -
- 1)) == 0)) {
- status =
- hio_mgr->intf_fxns->
- pfn_brd_mem_map(hio_mgr->hbridge_context,
- pa_curr, va_curr,
- page_size[i], map_attrs,
- NULL);
- if (status)
- goto func_end;
- pa_curr += page_size[i];
- va_curr += page_size[i];
- gpp_va_curr += page_size[i];
- num_bytes -= page_size[i];
- /*
- * Don't try smaller sizes. Hopefully we have
- * reached an address aligned to a bigger page
- * size.
- */
- break;
- }
- }
+ va_curr = iommu_kmap(mmu, va_curr, pa_curr, num_bytes,
+ IOVMF_ENDIAN_LITTLE | IOVMF_ELSZ_32);
+ if (IS_ERR_VALUE(va_curr)) {
+ status = (int)va_curr;
+ goto func_end;
}
- pa_curr += ul_pad_size;
- va_curr += ul_pad_size;
- gpp_va_curr += ul_pad_size;
+
+ pa_curr += ul_pad_size + num_bytes;
+ va_curr += ul_pad_size + num_bytes;
+ gpp_va_curr += ul_pad_size + num_bytes;
/* Configure the TLB entries for the next cacheable segment */
num_bytes = ul_seg_size;
ae_proc[ndx].ul_dsp_va *
hio_mgr->word_size, page_size[i]);
ndx++;
- } else {
- status =
- hio_mgr->intf_fxns->
- pfn_brd_mem_map(hio_mgr->hbridge_context,
- pa_curr, va_curr,
- page_size[i], map_attrs,
- NULL);
- dev_dbg(bridge,
- "shm MMU PTE entry PA %x"
- " VA %x DSP_VA %x Size %x\n",
- ae_proc[ndx].ul_gpp_pa,
- ae_proc[ndx].ul_gpp_va,
- ae_proc[ndx].ul_dsp_va *
- hio_mgr->word_size, page_size[i]);
- if (status)
- goto func_end;
}
pa_curr += page_size[i];
va_curr += page_size[i];
"DSP_VA 0x%x\n", ae_proc[ndx].ul_gpp_pa,
ae_proc[ndx].ul_dsp_va);
ndx++;
- } else {
- status = hio_mgr->intf_fxns->pfn_brd_mem_map
- (hio_mgr->hbridge_context,
- hio_mgr->ext_proc_info.ty_tlb[i].
- ul_gpp_phys,
- hio_mgr->ext_proc_info.ty_tlb[i].
- ul_dsp_virt, 0x100000, map_attrs,
- NULL);
}
}
if (status)
goto func_end;
}
- map_attrs = 0x00000000;
- map_attrs = DSP_MAPLITTLEENDIAN;
- map_attrs |= DSP_MAPPHYSICALADDR;
- map_attrs |= DSP_MAPELEMSIZE32;
- map_attrs |= DSP_MAPDONOTLOCK;
-
/* Map the L4 peripherals */
i = 0;
while (l4_peripheral_table[i].phys_addr) {
- status = hio_mgr->intf_fxns->pfn_brd_mem_map
- (hio_mgr->hbridge_context, l4_peripheral_table[i].phys_addr,
- l4_peripheral_table[i].dsp_virt_addr, HW_PAGE_SIZE4KB,
- map_attrs, NULL);
- if (status)
- goto func_end;
+ status = iommu_kmap(mmu, l4_peripheral_table[i].
+ dsp_virt_addr, l4_peripheral_table[i].phys_addr,
+ PAGE_SIZE, IOVMF_ENDIAN_LITTLE | IOVMF_ELSZ_32);
+ if (IS_ERR_VALUE(status))
+ break;
i++;
}
+ if (IS_ERR_VALUE(status)) {
+ while (i--)
+ iommu_kunmap(mmu, l4_peripheral_table[i].
+ dsp_virt_addr);
+ goto func_end;
+ }
+ status = 0;
for (i = ndx; i < BRDIOCTL_NUMOFMMUTLB; i++) {
ae_proc[i].ul_dsp_va = 0;
u32 ul_num_bytes, u32 ul_map_attr,
struct page **mapped_pages);
static int bridge_brd_mem_un_map(struct bridge_dev_context *dev_ctxt,
- u32 virt_addr, u32 ul_num_bytes);
+ u32 da);
static int bridge_dev_create(struct bridge_dev_context
**dev_cntxt,
struct dev_object *hdev_obj,
static int bridge_dev_ctrl(struct bridge_dev_context *dev_context,
u32 dw_cmd, void *pargs);
static int bridge_dev_destroy(struct bridge_dev_context *dev_ctxt);
+static int get_io_pages(struct mm_struct *mm, u32 uva, unsigned pages,
+ struct page **usr_pgs);
static u32 user_va2_pa(struct mm_struct *mm, u32 address);
static int pte_update(struct bridge_dev_context *dev_ctxt, u32 pa,
u32 va, u32 size,
{
int status = 0;
struct bridge_dev_context *dev_context = dev_ctxt;
+ struct iommu *mmu;
u32 dw_sync_addr = 0;
u32 ul_shm_base; /* Gpp Phys SM base addr(byte) */
u32 ul_shm_base_virt; /* Dsp Virt SM base addr */
struct dspbridge_platform_data *pdata =
omap_dspbridge_dev->dev.platform_data;
+ mmu = dev_context->dsp_mmu;
/* The device context contains all the mmu setup info from when the
* last dsp base image was loaded. The first entry is always
* SHMMEM base. */
}
}
if (!status) {
- /* Reset and Unreset the RST2, so that BOOTADDR is copied to
- * IVA2 SYSC register */
- (*pdata->dsp_prm_rmw_bits)(OMAP3430_RST2_IVA2_MASK,
- OMAP3430_RST2_IVA2_MASK, OMAP3430_IVA2_MOD, OMAP2_RM_RSTCTRL);
- udelay(100);
- (*pdata->dsp_prm_rmw_bits)(OMAP3430_RST2_IVA2_MASK, 0,
- OMAP3430_IVA2_MOD, OMAP2_RM_RSTCTRL);
- udelay(100);
-
- /* Disbale the DSP MMU */
- hw_mmu_disable(resources->dw_dmmu_base);
- /* Disable TWL */
- hw_mmu_twl_disable(resources->dw_dmmu_base);
-
/* Only make TLB entry if both addresses are non-zero */
for (entry_ndx = 0; entry_ndx < BRDIOCTL_NUMOFMMUTLB;
entry_ndx++) {
struct bridge_ioctl_extproc *e = &dev_context->atlb_entry[entry_ndx];
- struct hw_mmu_map_attrs_t map_attrs = {
- .endianism = e->endianism,
- .element_size = e->elem_size,
- .mixed_size = e->mixed_mode,
- };
if (!e->ul_gpp_pa || !e->ul_dsp_va)
continue;
e->ul_dsp_va,
e->ul_size);
- hw_mmu_tlb_add(dev_context->dw_dsp_mmu_base,
- e->ul_gpp_pa,
- e->ul_dsp_va,
- e->ul_size,
- itmp_entry_ndx,
- &map_attrs, 1, 1);
-
+ iommu_kmap(mmu, e->ul_dsp_va, e->ul_gpp_pa, e->ul_size,
+ IOVMF_ENDIAN_LITTLE | IOVMF_ELSZ_32);
itmp_entry_ndx++;
}
}
/* Lock the above TLB entries and get the BIOS and load monitor timer
* information */
if (!status) {
- hw_mmu_num_locked_set(resources->dw_dmmu_base, itmp_entry_ndx);
- hw_mmu_victim_num_set(resources->dw_dmmu_base, itmp_entry_ndx);
- hw_mmu_ttb_set(resources->dw_dmmu_base,
- dev_context->pt_attrs->l1_base_pa);
- hw_mmu_twl_enable(resources->dw_dmmu_base);
- /* Enable the SmartIdle and AutoIdle bit for MMU_SYSCONFIG */
-
- temp = __raw_readl((resources->dw_dmmu_base) + 0x10);
- temp = (temp & 0xFFFFFFEF) | 0x11;
- __raw_writel(temp, (resources->dw_dmmu_base) + 0x10);
-
- /* Let the DSP MMU run */
- hw_mmu_enable(resources->dw_dmmu_base);
-
/* Enable the BIOS clock */
(void)dev_get_symbol(dev_context->hdev_obj,
BRIDGEINIT_BIOSGPTIMER, &ul_bios_gp_timer);
(void)dev_get_symbol(dev_context->hdev_obj,
BRIDGEINIT_LOADMON_GPTIMER,
&ul_load_monitor_timer);
- }
- if (!status) {
if (ul_load_monitor_timer != 0xFFFF) {
clk_cmd = (BPWR_ENABLE_CLOCK << MBX_PM_CLK_CMDSHIFT) |
ul_load_monitor_timer;
dev_dbg(bridge, "Not able to get the symbol for Load "
"Monitor Timer\n");
}
- }
- if (!status) {
if (ul_bios_gp_timer != 0xFFFF) {
clk_cmd = (BPWR_ENABLE_CLOCK << MBX_PM_CLK_CMDSHIFT) |
ul_bios_gp_timer;
dev_dbg(bridge,
"Not able to get the symbol for BIOS Timer\n");
}
- }
- if (!status) {
/* Set the DSP clock rate */
(void)dev_get_symbol(dev_context->hdev_obj,
"_BRIDGEINIT_DSP_FREQ", &ul_dsp_clk_addr);
/* Let DSP go */
dev_dbg(bridge, "%s Unreset\n", __func__);
- /* Enable DSP MMU Interrupts */
- hw_mmu_event_enable(resources->dw_dmmu_base,
- HW_MMU_ALL_INTERRUPTS);
/* release the RST1, DSP starts executing now .. */
(*pdata->dsp_prm_rmw_bits)(OMAP3430_RST1_IVA2_MASK, 0,
OMAP3430_IVA2_MOD, OMAP2_RM_RSTCTRL);
omap_mbox_put(dev_context->mbox);
dev_context->mbox = NULL;
}
+ if (dev_context->dsp_mmu)
+ dev_context->dsp_mmu = (iommu_put(dev_context->dsp_mmu), NULL);
/* Reset IVA2 clocks*/
(*pdata->dsp_prm_write)(OMAP3430_RST1_IVA2_MASK | OMAP3430_RST2_IVA2_MASK |
OMAP3430_RST3_IVA2_MASK, OMAP3430_IVA2_MOD, OMAP2_RM_RSTCTRL);
*
* TODO: Disable MMU while updating the page tables (but that'll stall DSP)
*/
-static int bridge_brd_mem_map(struct bridge_dev_context *dev_ctxt,
- u32 ul_mpu_addr, u32 virt_addr,
- u32 ul_num_bytes, u32 ul_map_attr,
- struct page **mapped_pages)
+static int bridge_brd_mem_map(struct bridge_dev_context *dev_ctx,
+ u32 uva, u32 da, u32 size, u32 attr,
+ struct page **usr_pgs)
+
{
- u32 attrs;
- int status = 0;
- struct bridge_dev_context *dev_context = dev_ctxt;
- struct hw_mmu_map_attrs_t hw_attrs;
+ int res, w;
+ unsigned pages, i;
+ struct iommu *mmu = dev_ctx->dsp_mmu;
struct vm_area_struct *vma;
struct mm_struct *mm = current->mm;
- u32 write = 0;
- u32 num_usr_pgs = 0;
- struct page *mapped_page, *pg;
- s32 pg_num;
- u32 va = virt_addr;
- struct task_struct *curr_task = current;
- u32 pg_i = 0;
- u32 mpu_addr, pa;
-
- dev_dbg(bridge,
- "%s hDevCtxt %p, pa %x, va %x, size %x, ul_map_attr %x\n",
- __func__, dev_ctxt, ul_mpu_addr, virt_addr, ul_num_bytes,
- ul_map_attr);
- if (ul_num_bytes == 0)
- return -EINVAL;
+ struct sg_table *sgt;
+ struct scatterlist *sg;
- if (ul_map_attr & DSP_MAP_DIR_MASK) {
- attrs = ul_map_attr;
- } else {
- /* Assign default attributes */
- attrs = ul_map_attr | (DSP_MAPVIRTUALADDR | DSP_MAPELEMSIZE16);
- }
- /* Take mapping properties */
- if (attrs & DSP_MAPBIGENDIAN)
- hw_attrs.endianism = HW_BIG_ENDIAN;
- else
- hw_attrs.endianism = HW_LITTLE_ENDIAN;
-
- hw_attrs.mixed_size = (enum hw_mmu_mixed_size_t)
- ((attrs & DSP_MAPMIXEDELEMSIZE) >> 2);
- /* Ignore element_size if mixed_size is enabled */
- if (hw_attrs.mixed_size == 0) {
- if (attrs & DSP_MAPELEMSIZE8) {
- /* Size is 8 bit */
- hw_attrs.element_size = HW_ELEM_SIZE8BIT;
- } else if (attrs & DSP_MAPELEMSIZE16) {
- /* Size is 16 bit */
- hw_attrs.element_size = HW_ELEM_SIZE16BIT;
- } else if (attrs & DSP_MAPELEMSIZE32) {
- /* Size is 32 bit */
- hw_attrs.element_size = HW_ELEM_SIZE32BIT;
- } else if (attrs & DSP_MAPELEMSIZE64) {
- /* Size is 64 bit */
- hw_attrs.element_size = HW_ELEM_SIZE64BIT;
- } else {
- /*
- * Mixedsize isn't enabled, so size can't be
- * zero here
- */
- return -EINVAL;
- }
- }
- if (attrs & DSP_MAPDONOTLOCK)
- hw_attrs.donotlockmpupage = 1;
- else
- hw_attrs.donotlockmpupage = 0;
+ if (!size || !usr_pgs)
+ return -EINVAL;
- if (attrs & DSP_MAPVMALLOCADDR) {
- return mem_map_vmalloc(dev_ctxt, ul_mpu_addr, virt_addr,
- ul_num_bytes, &hw_attrs);
- }
- /*
- * Do OS-specific user-va to pa translation.
- * Combine physically contiguous regions to reduce TLBs.
- * Pass the translated pa to pte_update.
- */
- if ((attrs & DSP_MAPPHYSICALADDR)) {
- status = pte_update(dev_context, ul_mpu_addr, virt_addr,
- ul_num_bytes, &hw_attrs);
- goto func_cont;
- }
+ pages = size / PG_SIZE4K;
- /*
- * Important Note: ul_mpu_addr is mapped from user application process
- * to current process - it must lie completely within the current
- * virtual memory address space in order to be of use to us here!
- */
down_read(&mm->mmap_sem);
- vma = find_vma(mm, ul_mpu_addr);
- if (vma)
- dev_dbg(bridge,
- "VMAfor UserBuf: ul_mpu_addr=%x, ul_num_bytes=%x, "
- "vm_start=%lx, vm_end=%lx, vm_flags=%lx\n", ul_mpu_addr,
- ul_num_bytes, vma->vm_start, vma->vm_end,
- vma->vm_flags);
-
- /*
- * It is observed that under some circumstances, the user buffer is
- * spread across several VMAs. So loop through and check if the entire
- * user buffer is covered
- */
- while ((vma) && (ul_mpu_addr + ul_num_bytes > vma->vm_end)) {
- /* jump to the next VMA region */
+ vma = find_vma(mm, uva);
+ while (vma && (uva + size > vma->vm_end))
vma = find_vma(mm, vma->vm_end + 1);
- dev_dbg(bridge,
- "VMA for UserBuf ul_mpu_addr=%x ul_num_bytes=%x, "
- "vm_start=%lx, vm_end=%lx, vm_flags=%lx\n", ul_mpu_addr,
- ul_num_bytes, vma->vm_start, vma->vm_end,
- vma->vm_flags);
- }
+
if (!vma) {
pr_err("%s: Failed to get VMA region for 0x%x (%d)\n",
- __func__, ul_mpu_addr, ul_num_bytes);
- status = -EINVAL;
+ __func__, uva, size);
up_read(&mm->mmap_sem);
- goto func_cont;
+ return -EINVAL;
}
+ if (vma->vm_flags & (VM_WRITE | VM_MAYWRITE))
+ w = 1;
- if (vma->vm_flags & VM_IO) {
- num_usr_pgs = ul_num_bytes / PG_SIZE4K;
- mpu_addr = ul_mpu_addr;
-
- /* Get the physical addresses for user buffer */
- for (pg_i = 0; pg_i < num_usr_pgs; pg_i++) {
- pa = user_va2_pa(mm, mpu_addr);
- if (!pa) {
- status = -EPERM;
- pr_err("DSPBRIDGE: VM_IO mapping physical"
- "address is invalid\n");
- break;
- }
- if (pfn_valid(__phys_to_pfn(pa))) {
- pg = PHYS_TO_PAGE(pa);
- get_page(pg);
- if (page_count(pg) < 1) {
- pr_err("Bad page in VM_IO buffer\n");
- bad_page_dump(pa, pg);
- }
- }
- status = pte_set(dev_context->pt_attrs, pa,
- va, HW_PAGE_SIZE4KB, &hw_attrs);
- if (status)
- break;
+ if (vma->vm_flags & VM_IO)
+ i = get_io_pages(mm, uva, pages, usr_pgs);
+ else
+ i = get_user_pages(current, mm, uva, pages, w, 1,
+ usr_pgs, NULL);
+ up_read(&mm->mmap_sem);
- va += HW_PAGE_SIZE4KB;
- mpu_addr += HW_PAGE_SIZE4KB;
- pa += HW_PAGE_SIZE4KB;
- }
- } else {
- num_usr_pgs = ul_num_bytes / PG_SIZE4K;
- if (vma->vm_flags & (VM_WRITE | VM_MAYWRITE))
- write = 1;
-
- for (pg_i = 0; pg_i < num_usr_pgs; pg_i++) {
- pg_num = get_user_pages(curr_task, mm, ul_mpu_addr, 1,
- write, 1, &mapped_page, NULL);
- if (pg_num > 0) {
- if (page_count(mapped_page) < 1) {
- pr_err("Bad page count after doing"
- "get_user_pages on"
- "user buffer\n");
- bad_page_dump(page_to_phys(mapped_page),
- mapped_page);
- }
- status = pte_set(dev_context->pt_attrs,
- page_to_phys(mapped_page), va,
- HW_PAGE_SIZE4KB, &hw_attrs);
- if (status)
- break;
-
- if (mapped_pages)
- mapped_pages[pg_i] = mapped_page;
-
- va += HW_PAGE_SIZE4KB;
- ul_mpu_addr += HW_PAGE_SIZE4KB;
- } else {
- pr_err("DSPBRIDGE: get_user_pages FAILED,"
- "MPU addr = 0x%x,"
- "vma->vm_flags = 0x%lx,"
- "get_user_pages Err"
- "Value = %d, Buffer"
- "size=0x%x\n", ul_mpu_addr,
- vma->vm_flags, pg_num, ul_num_bytes);
- status = -EPERM;
- break;
- }
- }
+ if (i < 0)
+ return i;
+
+ if (i < pages) {
+ res = -EFAULT;
+ goto err_pages;
}
- up_read(&mm->mmap_sem);
-func_cont:
- if (status) {
- /*
- * Roll out the mapped pages incase it failed in middle of
- * mapping
- */
- if (pg_i) {
- bridge_brd_mem_un_map(dev_context, virt_addr,
- (pg_i * PG_SIZE4K));
- }
- status = -EPERM;
+
+ sgt = kzalloc(sizeof(*sgt), GFP_KERNEL);
+ if (!sgt) {
+ res = -ENOMEM;
+ goto err_pages;
}
- /*
- * In any case, flush the TLB
- * This is called from here instead from pte_update to avoid unnecessary
- * repetition while mapping non-contiguous physical regions of a virtual
- * region
- */
- flush_all(dev_context);
- dev_dbg(bridge, "%s status %x\n", __func__, status);
- return status;
+
+ res = sg_alloc_table(sgt, pages, GFP_KERNEL);
+
+ if (res < 0)
+ goto err_sg;
+
+ for_each_sg(sgt->sgl, sg, sgt->nents, i)
+ sg_set_page(sg, usr_pgs[i], PAGE_SIZE, 0);
+
+ da = iommu_vmap(mmu, da, sgt, IOVMF_ENDIAN_LITTLE | IOVMF_ELSZ_32);
+
+ if (!IS_ERR_VALUE(da))
+ return 0;
+ res = (int)da;
+
+ sg_free_table(sgt);
+err_sg:
+ kfree(sgt);
+ i = pages;
+err_pages:
+ while (i--)
+ put_page(usr_pgs[i]);
+ return res;
}
/*
* So, instead of looking up the PTE address for every 4K block,
* we clear consecutive PTEs until we unmap all the bytes
*/
-static int bridge_brd_mem_un_map(struct bridge_dev_context *dev_ctxt,
- u32 virt_addr, u32 ul_num_bytes)
+static int bridge_brd_mem_un_map(struct bridge_dev_context *dev_ctx, u32 da)
{
- u32 l1_base_va;
- u32 l2_base_va;
- u32 l2_base_pa;
- u32 l2_page_num;
- u32 pte_val;
- u32 pte_size;
- u32 pte_count;
- u32 pte_addr_l1;
- u32 pte_addr_l2 = 0;
- u32 rem_bytes;
- u32 rem_bytes_l2;
- u32 va_curr;
- struct page *pg = NULL;
- int status = 0;
- struct bridge_dev_context *dev_context = dev_ctxt;
- struct pg_table_attrs *pt = dev_context->pt_attrs;
- u32 temp;
- u32 paddr;
- u32 numof4k_pages = 0;
-
- va_curr = virt_addr;
- rem_bytes = ul_num_bytes;
- rem_bytes_l2 = 0;
- l1_base_va = pt->l1_base_va;
- pte_addr_l1 = hw_mmu_pte_addr_l1(l1_base_va, va_curr);
- dev_dbg(bridge, "%s dev_ctxt %p, va %x, NumBytes %x l1_base_va %x, "
- "pte_addr_l1 %x\n", __func__, dev_ctxt, virt_addr,
- ul_num_bytes, l1_base_va, pte_addr_l1);
+ unsigned i;
+ struct sg_table *sgt;
+ struct scatterlist *sg;
- while (rem_bytes && !status) {
- u32 va_curr_orig = va_curr;
- /* Find whether the L1 PTE points to a valid L2 PT */
- pte_addr_l1 = hw_mmu_pte_addr_l1(l1_base_va, va_curr);
- pte_val = *(u32 *) pte_addr_l1;
- pte_size = hw_mmu_pte_size_l1(pte_val);
+ sgt = iommu_vunmap(dev_ctx->dsp_mmu, da);
+ if (!sgt)
+ return -EFAULT;
- if (pte_size != HW_MMU_COARSE_PAGE_SIZE)
- goto skip_coarse_page;
+ for_each_sg(sgt->sgl, sg, sgt->nents, i)
+ put_page(sg_page(sg));
+ sg_free_table(sgt);
+ kfree(sgt);
- /*
- * Get the L2 PA from the L1 PTE, and find
- * corresponding L2 VA
- */
- l2_base_pa = hw_mmu_pte_coarse_l1(pte_val);
- l2_base_va = l2_base_pa - pt->l2_base_pa + pt->l2_base_va;
- l2_page_num =
- (l2_base_pa - pt->l2_base_pa) / HW_MMU_COARSE_PAGE_SIZE;
- /*
- * Find the L2 PTE address from which we will start
- * clearing, the number of PTEs to be cleared on this
- * page, and the size of VA space that needs to be
- * cleared on this L2 page
- */
- pte_addr_l2 = hw_mmu_pte_addr_l2(l2_base_va, va_curr);
- pte_count = pte_addr_l2 & (HW_MMU_COARSE_PAGE_SIZE - 1);
- pte_count = (HW_MMU_COARSE_PAGE_SIZE - pte_count) / sizeof(u32);
- if (rem_bytes < (pte_count * PG_SIZE4K))
- pte_count = rem_bytes / PG_SIZE4K;
- rem_bytes_l2 = pte_count * PG_SIZE4K;
+ return 0;
+}
- /*
- * Unmap the VA space on this L2 PT. A quicker way
- * would be to clear pte_count entries starting from
- * pte_addr_l2. However, below code checks that we don't
- * clear invalid entries or less than 64KB for a 64KB
- * entry. Similar checking is done for L1 PTEs too
- * below
- */
- while (rem_bytes_l2 && !status) {
- pte_val = *(u32 *) pte_addr_l2;
- pte_size = hw_mmu_pte_size_l2(pte_val);
- /* va_curr aligned to pte_size? */
- if (pte_size == 0 || rem_bytes_l2 < pte_size ||
- va_curr & (pte_size - 1)) {
- status = -EPERM;
- break;
- }
- /* Collect Physical addresses from VA */
- paddr = (pte_val & ~(pte_size - 1));
- if (pte_size == HW_PAGE_SIZE64KB)
- numof4k_pages = 16;
- else
- numof4k_pages = 1;
- temp = 0;
- while (temp++ < numof4k_pages) {
- if (!pfn_valid(__phys_to_pfn(paddr))) {
- paddr += HW_PAGE_SIZE4KB;
- continue;
- }
- pg = PHYS_TO_PAGE(paddr);
- if (page_count(pg) < 1) {
- pr_info("DSPBRIDGE: UNMAP function: "
- "COUNT 0 FOR PA 0x%x, size = "
- "0x%x\n", paddr, ul_num_bytes);
- bad_page_dump(paddr, pg);
- } else {
- set_page_dirty(pg);
- page_cache_release(pg);
- }
- paddr += HW_PAGE_SIZE4KB;
- }
- if (hw_mmu_pte_clear(pte_addr_l2, va_curr, pte_size)) {
- status = -EPERM;
- goto EXIT_LOOP;
- }
+static int get_io_pages(struct mm_struct *mm, u32 uva, unsigned pages,
+ struct page **usr_pgs)
+{
+ u32 pa;
+ int i;
+ struct page *pg;
- status = 0;
- rem_bytes_l2 -= pte_size;
- va_curr += pte_size;
- pte_addr_l2 += (pte_size >> 12) * sizeof(u32);
- }
- spin_lock(&pt->pg_lock);
- if (rem_bytes_l2 == 0) {
- pt->pg_info[l2_page_num].num_entries -= pte_count;
- if (pt->pg_info[l2_page_num].num_entries == 0) {
- /*
- * Clear the L1 PTE pointing to the L2 PT
- */
- if (!hw_mmu_pte_clear(l1_base_va, va_curr_orig,
- HW_MMU_COARSE_PAGE_SIZE))
- status = 0;
- else {
- status = -EPERM;
- spin_unlock(&pt->pg_lock);
- goto EXIT_LOOP;
- }
- }
- rem_bytes -= pte_count * PG_SIZE4K;
- } else
- status = -EPERM;
+ for (i = 0; i < pages; i++) {
+ pa = user_va2_pa(mm, uva);
- spin_unlock(&pt->pg_lock);
- continue;
-skip_coarse_page:
- /* va_curr aligned to pte_size? */
- /* pte_size = 1 MB or 16 MB */
- if (pte_size == 0 || rem_bytes < pte_size ||
- va_curr & (pte_size - 1)) {
- status = -EPERM;
+ if (!pfn_valid(__phys_to_pfn(pa)))
break;
- }
- if (pte_size == HW_PAGE_SIZE1MB)
- numof4k_pages = 256;
- else
- numof4k_pages = 4096;
- temp = 0;
- /* Collect Physical addresses from VA */
- paddr = (pte_val & ~(pte_size - 1));
- while (temp++ < numof4k_pages) {
- if (pfn_valid(__phys_to_pfn(paddr))) {
- pg = PHYS_TO_PAGE(paddr);
- if (page_count(pg) < 1) {
- pr_info("DSPBRIDGE: UNMAP function: "
- "COUNT 0 FOR PA 0x%x, size = "
- "0x%x\n", paddr, ul_num_bytes);
- bad_page_dump(paddr, pg);
- } else {
- set_page_dirty(pg);
- page_cache_release(pg);
- }
- }
- paddr += HW_PAGE_SIZE4KB;
- }
- if (!hw_mmu_pte_clear(l1_base_va, va_curr, pte_size)) {
- status = 0;
- rem_bytes -= pte_size;
- va_curr += pte_size;
- } else {
- status = -EPERM;
- goto EXIT_LOOP;
- }
+ pg = PHYS_TO_PAGE(pa);
+ usr_pgs[i] = pg;
+ get_page(pg);
}
- /*
- * It is better to flush the TLB here, so that any stale old entries
- * get flushed
- */
-EXIT_LOOP:
- flush_all(dev_context);
- dev_dbg(bridge,
- "%s: va_curr %x, pte_addr_l1 %x pte_addr_l2 %x rem_bytes %x,"
- " rem_bytes_l2 %x status %x\n", __func__, va_curr, pte_addr_l1,
- pte_addr_l2, rem_bytes, rem_bytes_l2, status);
- return status;
+ return i;
}
/*